Fingerprints of Mott and Slater gaps in the core-level photoemission spectra of antiferromagnetic iridates
Abstract
We present Ir 4f core-level hard-x-ray photoemission spectroscopy (HAXPES) experiments conducted across antiferromagnetic (AFM) ordering transition in Ruddlesden-Popper iridates Sr2IrO4 and Sr3Ir2O7. The Ir 4f spectra exhibit distinct changes between the AFM and paramagnetic (PM) phases, with the spectral difference IPM-IAFM showing a contrasting behavior in the two compounds. By employing computational simulations using the local-density approximation combined with the dynamical mean-field theory method, we elucidate that IPM-IAFM primary reflects the Slater or Mott-Hubbard character of the AFM insulating state rather than material specific details. This sensitivity to fine low-energy electronic structure arises from the dependence of charge-transfer responses to the sudden creation of a localized core hole on both metal-insulator transitions and long-range AFM ordering. Our result broadens the applications of core-level HAXPES as a tool for characterization of electronic structure.
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